Legal claims defining the scope of protection. Each claim is shown in both the original legal language and a plain English translation.
1. A method for summarizing content of an electronic apparatus, the method comprising: displaying a first portion of content on a display; receiving a user input on the display while the first portion of the content is being displayed; determining an area of the display corresponding to a position where the user input is received on the display; identifying, from among a plurality of different non-displayed portions of the content, a first non-displayed portion of the content corresponding to the determined area; summarizing the first non-displayed portion of the content based on a type of the content; and displaying the summarized first non-displayed portion of the content along with at least a portion of the first portion of the content.
This invention relates to content summarization in electronic devices, addressing the challenge of efficiently accessing non-displayed portions of content without navigating away from the currently viewed section. The method involves displaying a first portion of content on a screen while allowing a user to interact with it. When a user input is received, the system determines the specific area of the display where the input occurred. Based on this location, the system identifies a relevant non-displayed portion of the content that corresponds to the input area. The identified portion is then summarized according to its content type (e.g., text, images, or multimedia). The summarized content is displayed alongside the original portion, enabling users to quickly access and review non-displayed sections without disrupting their current view. This approach enhances usability by providing contextual summaries in response to user interactions, reducing the need for manual navigation or scrolling. The system dynamically adapts to different content types, ensuring relevant and concise summaries are generated for efficient information access.
2. The method as claimed in claim 1 , wherein the user input comprises a user touch input to any of upper, lower, right, and left areas of the display.
A method for touch-based user interaction with a display involves detecting touch inputs in specific regions of the screen to trigger corresponding actions. The display is divided into distinct areas—upper, lower, right, and left—each associated with a unique function. When a user touches any of these areas, the system interprets the input based on the location and executes the associated command. For example, touching the upper area might open a menu, the lower area could navigate to a home screen, the right area might scroll or advance content, and the left area could return to a previous screen or undo an action. This approach simplifies navigation by assigning intuitive gestures to predefined screen regions, reducing the need for precise touch targets and improving usability, especially on devices with limited screen space or for users with motor impairments. The method enhances accessibility and efficiency by leveraging spatial awareness to streamline interactions.
3. The method as claimed in claim 1 , further comprising: determining the type of the content by analyzing the content.
A system and method for content analysis and classification processes digital content to determine its type. The method involves receiving digital content, such as text, images, audio, or video, and analyzing its characteristics to classify it into predefined categories. The analysis may include examining metadata, structural features, or embedded patterns within the content. For example, text content may be analyzed for keywords, syntax, or semantic meaning, while image content may be evaluated for color distribution, object recognition, or pixel patterns. The classification results can be used for content filtering, recommendation systems, or automated processing workflows. The method ensures accurate categorization by leveraging machine learning models or rule-based algorithms tailored to different content types. This approach improves content management by enabling automated sorting, indexing, and retrieval based on the determined content type. The system may also integrate with external databases or APIs to enhance classification accuracy. The method is applicable in various domains, including media processing, cybersecurity, and data analytics, where content categorization is essential for efficient handling and decision-making.
4. The method as claimed in claim 1 , further comprising: identifying, from among a plurality of different content summarization units, a content summarization unit based on a type of the user input, wherein the first non-displayed portion of the content is summarized using the identified content summarization unit.
5. The method as claimed in claim 1 , further comprising: displaying, based on receiving user input for scrolling a screen while the summarized first non-displayed portion of the content is displayed, the summarized first non-displayed portion of the content having a content summarization range changed according to the screen scrolling.
This invention relates to content summarization and display in digital interfaces, particularly for managing and presenting non-displayed portions of content in a user-friendly manner. The problem addressed is the challenge of efficiently summarizing and dynamically adjusting content summaries in response to user interactions, such as scrolling, to provide a seamless and intuitive browsing experience. The method involves displaying a summarized version of a non-displayed portion of content, where the summary is generated based on a predefined summarization range. When a user provides input to scroll the screen, the summarization range of the non-displayed content is dynamically adjusted according to the scrolling action. This adjustment ensures that the summary remains relevant and contextually accurate as the user navigates through the content. The summarization process may involve extracting key points, condensing text, or highlighting important sections of the non-displayed content to provide a concise overview. The method also includes generating the summary by analyzing the non-displayed content to identify key information, such as keywords, phrases, or structural elements, and then condensing this information into a summarized form. The summarization range can be modified based on factors such as the user's scrolling speed, direction, or the length of the non-displayed content. This dynamic adjustment ensures that the summary remains useful and aligned with the user's browsing behavior. The invention enhances user experience by providing real-time, context-aware summaries that adapt to user interactions.
6. The method as claimed in claim 1 , wherein the first non-displayed portion of the content is summarized based on a data summarization model generated by using a learning algorithm.
This invention relates to content summarization techniques, specifically for generating summaries of non-displayed portions of content. The problem addressed is the need to efficiently condense and present key information from parts of content that are not directly visible to a user, such as hidden sections, background data, or supplementary material. The solution involves using a data summarization model, which is created through a learning algorithm, to automatically summarize the non-displayed content. The model processes the raw data, extracts relevant information, and generates a concise summary. This approach ensures that users can quickly access the most important details without needing to review the entire non-displayed portion. The summarization model is trained to recognize patterns and key points within the data, improving accuracy and relevance over time. The method is particularly useful in applications where space is limited, such as mobile devices or interfaces with constrained display areas, or where users need quick access to summarized information from extensive datasets. The invention enhances user experience by reducing cognitive load and improving efficiency in information retrieval.
7. The method as claimed in claim 1 , wherein summarizing the first non-displayed portion of the content comprises: analyzing information of the first non-displayed portion of the content; extracting main text for a summary sentence based on the analyzed information; and generating the summarized first non-displayed portion of the content by editing and arranging the extracted text.
This invention relates to content summarization, specifically for generating concise summaries of non-displayed portions of digital content, such as documents or web pages. The problem addressed is the need to efficiently condense lengthy or hidden content into a brief, readable summary without requiring full user interaction. The method involves analyzing the first non-displayed portion of the content to identify key information. This analysis may include examining text structure, relevance, or other metadata. From this analysis, main text segments are extracted to form the basis of a summary sentence. The extracted text is then edited and arranged to create a coherent and concise summary of the non-displayed portion. This process ensures that users can quickly grasp the essential information without navigating through the full content. The summarization technique is particularly useful in applications where only a portion of content is initially visible, such as in document previews, search results, or mobile interfaces. By automating the summarization of hidden sections, the method enhances user experience by reducing the need for manual scrolling or navigation. The approach leverages text processing and natural language techniques to maintain accuracy and readability in the generated summaries.
8. The method as claimed in claim 1 , wherein, based on the first non-displayed portion of the content comprising shopping content for a plurality of products, the summarized first non-displayed portion of the content comprises images of the products and text about the products.
This invention relates to content summarization, specifically for presenting non-displayed portions of content in a user interface. The problem addressed is efficiently conveying relevant information from hidden or collapsed content sections, particularly when the content includes shopping-related information. The solution involves generating a summarized version of the non-displayed content, where the summary includes both visual and textual elements. For shopping content, the summary includes images of the products and descriptive text about the products. This allows users to quickly assess the relevance of the hidden content without fully expanding it. The summarization process may involve analyzing the original content to extract key visual and textual elements, then presenting them in a compact format. The method ensures that critical information, such as product images and descriptions, is preserved in the summary, enhancing user experience by reducing the need to navigate through lengthy or nested content. The approach is particularly useful in e-commerce applications, where users often need to quickly evaluate multiple products without opening each item individually. The summarized content may be displayed in a preview or thumbnail format, providing a balanced overview of the hidden information.
9. The method as claimed in claim 1 , wherein the summarizing of the first non-displayed portion of the content based on a type of the content and a type of the received input.
This invention relates to content summarization systems that adaptively generate summaries based on content type and user input. The problem addressed is the need for dynamic summarization that tailors output to both the nature of the content and the specific user interaction, improving relevance and efficiency. The system processes a first non-displayed portion of content, analyzing its type (e.g., text, video, or data) and the type of user input (e.g., query, command, or gesture) to generate a contextually appropriate summary. The summarization may involve extracting key phrases, generating a condensed version, or highlighting relevant sections. The method ensures the summary aligns with the user's intent and the content's structure, enhancing usability in applications like document review, media consumption, or data analysis. The system may also integrate with user preferences or historical interactions to refine future summaries. This adaptive approach distinguishes it from static summarization techniques, offering a more personalized and efficient way to process large volumes of information.
10. An electronic apparatus comprising: a display; and a processor configured to: control the display to display a first portion of content; control to receive a user input on the display while the first portion of the content is being displayed; determine an area of the display corresponding to a position where the user input is received on the display; identify, from among a plurality of different non-displayed portions of the content, a first non-displayed portion of the content corresponding to the determined area; summarize the first non-displayed portion of the content based on a type of the content; and control the display to display the summarized first non-displayed portion of the content along with at least a portion of the first portion of the content.
This invention relates to electronic devices with displays, addressing the challenge of efficiently navigating and accessing non-displayed content without disrupting the user's current view. The apparatus includes a display and a processor that manages content presentation. The processor displays a first portion of content on the display and detects user input while this content is visible. Upon receiving input, the processor determines the specific area of the display where the input occurred. It then identifies a relevant non-displayed portion of the content associated with that area from multiple available non-displayed sections. The processor generates a summary of this non-displayed portion based on the content type (e.g., text, images, or multimedia) and displays the summary alongside the original content. This allows users to preview hidden content without navigating away from their current view, enhancing usability and context retention. The system dynamically adapts to input location and content type, ensuring relevant summaries are provided efficiently. The invention improves content accessibility in devices like smartphones, tablets, or computers by integrating contextual previews into the existing display.
11. The apparatus as claimed in claim 10 , wherein the user input comprises a user touch input to any of upper, lower, right, and left areas of the display.
A touch-sensitive display apparatus includes a display screen with designated touch-sensitive areas for user input. The apparatus detects touch inputs in specific regions of the display, such as upper, lower, right, and left areas, to trigger corresponding functions. These touch inputs may be used to navigate menus, adjust settings, or execute commands without requiring additional physical buttons. The apparatus may also include a processor to interpret the touch inputs and a memory to store associated functions. The touch-sensitive areas are distinct zones on the display, allowing users to interact with the device by touching different parts of the screen. This design simplifies user interaction by integrating input functionality directly into the display, reducing the need for separate control elements. The apparatus may be used in devices such as smartphones, tablets, or other touch-enabled systems where space efficiency and intuitive user interaction are important. The touch-sensitive areas can be customized or reprogrammed to perform different actions based on user preferences or application requirements. This approach enhances usability by providing a more direct and responsive interface.
12. The apparatus as claimed in claim 10 , wherein the processor is configured to determine the type of the content by analyzing the content.
This invention relates to an apparatus for processing digital content, specifically addressing the challenge of automatically identifying and categorizing different types of content (e.g., text, images, audio, or video) to enable appropriate handling or analysis. The apparatus includes a processor that analyzes the content to determine its type. The processor may use techniques such as pattern recognition, metadata inspection, or machine learning to classify the content accurately. Once the type is identified, the apparatus can apply specialized processing steps tailored to that content type, such as optical character recognition for images, natural language processing for text, or audio feature extraction for sound files. This automated classification improves efficiency in content management systems, digital libraries, or multimedia applications by reducing manual intervention and ensuring correct processing pipelines are applied. The apparatus may also integrate with external databases or APIs to enhance classification accuracy or retrieve additional context about the content. The invention is particularly useful in environments where large volumes of diverse content must be processed quickly and accurately, such as cloud storage systems, media analysis platforms, or automated document processing workflows.
13. The apparatus as claimed in claim 10 , wherein the processor is configured to identify, from among a plurality of different content summarization units, a content summarization unit based on a type of the user input and summarize the first non-displayed portion of the content using the identified content summarization unit.
This invention relates to an apparatus for dynamically summarizing non-displayed content in response to user input. The problem addressed is the need for efficient content summarization tailored to different types of user interactions, such as voice commands, gestures, or text queries, to provide relevant summaries without requiring full content display. The apparatus includes a processor configured to receive user input and determine the type of input (e.g., voice, gesture, or text). Based on the input type, the processor selects a specific content summarization unit from multiple available units, each optimized for different input types. The selected unit then processes the non-displayed portion of the content to generate a concise summary. For example, a voice-based input may trigger a natural language processing unit to extract key points, while a gesture-based input may activate a visual summarization module. The summarized content is then presented to the user, improving efficiency and user experience by avoiding full content display. The invention ensures that the summarization method aligns with the user's interaction style, enhancing relevance and reducing cognitive load. The apparatus may also include a display for presenting the summarized content and an input interface for capturing user interactions. The dynamic selection of summarization units allows for adaptability across various applications, such as document review, multimedia navigation, or interactive interfaces.
14. The apparatus as claimed in claim 10 , wherein the processor is configured to, based on receiving user input for scrolling while the summarized first non-displayed portion of the content is displayed, control the display to display the summarized first non-displayed portion of the content having a content summarization range changed according to the screen scrolling.
This invention relates to a content display system that dynamically adjusts the summarization of non-displayed content based on user scrolling input. The problem addressed is the inefficiency of static content summarization, which may not align with a user's browsing behavior or interests. The system includes a display, a processor, and a memory storing content. The processor generates a summary of a first non-displayed portion of the content and controls the display to show this summary alongside the displayed content. When the user scrolls, the processor modifies the summarization range of the non-displayed portion in real-time, ensuring the summary remains relevant to the user's navigation. The summarization range may expand or contract based on scrolling speed, direction, or other input patterns. The system may also prioritize certain content segments within the summary based on user preferences or historical behavior. This dynamic approach improves user engagement by providing contextually relevant summaries that adapt to browsing actions.
15. The apparatus as claimed in claim 10 , further comprising: a memory configured to store a data summarization model generated by using a learning algorithm, wherein the processor is configured to summarize the first non-displayed portion of the content based on the stored data summarization model.
This invention relates to an apparatus for processing and summarizing digital content, particularly for content that is partially displayed to a user. The apparatus includes a processor that identifies a first non-displayed portion of the content, which is not visible to the user, and generates a summary of this portion. The processor also extracts metadata from the content, such as timestamps, to determine the relevance of the non-displayed portion. The apparatus further includes a memory that stores a data summarization model, which is generated using a learning algorithm. The processor uses this model to summarize the first non-displayed portion of the content. The summarization model may be trained to prioritize certain types of information or to adapt to user preferences. The apparatus may be used in applications where only a portion of content is displayed, such as in document viewers, video players, or messaging systems, to provide users with a concise overview of the non-displayed content. The invention improves efficiency by reducing the need for users to manually review or scroll through large amounts of content.
16. The apparatus as claimed in claim 10 , wherein the processor is configured to analyze information of the first non-displayed portion of the content, extract main text for a summary sentence based on the analyzed information, and generate the summarized first non-displayed portion of the content by editing and arranging the extracted text.
This invention relates to content summarization in digital displays, particularly for handling non-displayed portions of content. The problem addressed is efficiently summarizing and presenting non-displayed content to users without overwhelming them with excessive information. The apparatus includes a processor that analyzes a first non-displayed portion of content, extracts main text for a summary sentence based on the analysis, and generates a summarized version of the non-displayed portion by editing and arranging the extracted text. The processor may also determine the relevance of the non-displayed portion to a user's context or preferences, ensuring the summary is concise and meaningful. The apparatus may further include a display for presenting the summarized content, allowing users to quickly grasp key information without navigating through lengthy material. The summarization process may involve natural language processing techniques to identify key sentences or phrases, ensuring the summary retains the original content's essential meaning. This approach enhances user experience by providing relevant, condensed information, reducing cognitive load and improving efficiency in content consumption.
17. The apparatus as claimed in claim 10 , wherein based on the content comprising shopping content for a plurality of products, the summarized first non-displayed portion of the content comprises images of the products and text about the products.
This invention relates to an apparatus for summarizing and displaying content, particularly for shopping-related information. The apparatus processes content containing shopping information for multiple products, generating a summarized version of a non-displayed portion of the content. The summary includes images of the products and descriptive text about the products. The apparatus dynamically adjusts the display of content based on user interaction, such as scrolling or zooming, to reveal or hide portions of the content while maintaining a summarized view of non-displayed sections. The summarized content is generated by analyzing the original content to extract key visual and textual elements, ensuring that the summary remains relevant and informative. The apparatus may also prioritize certain products or information based on user preferences or historical data. The summarized content is displayed in a compact format, allowing users to quickly access key details without navigating through extensive product listings. The invention improves user experience by reducing information overload and enhancing accessibility to product information.
18. The electronic apparatus as claimed in claim 10 , wherein the processor is configured to summarize the first non-displayed portion of the content based on a type of the content and a type of the received input.
The invention relates to an electronic apparatus designed to enhance user interaction with digital content by dynamically summarizing non-displayed portions of the content. The problem addressed is the inefficiency of traditional content navigation, where users must manually scroll or search through lengthy content to find relevant information, leading to wasted time and reduced productivity. The electronic apparatus includes a processor that analyzes the type of content (e.g., text, video, or multimedia) and the type of user input (e.g., voice command, touch gesture, or keyboard input) to generate a concise summary of the non-displayed portion. For example, if the content is a long document and the user provides a voice query, the processor may extract key sentences or paragraphs relevant to the query. Similarly, for video content, the processor may summarize key scenes or highlights based on the user's input. The summarization is tailored to the content type and input method, ensuring the summary is both accurate and contextually relevant. The apparatus may also include a display for presenting the summary alongside the displayed content, allowing users to quickly access summarized information without navigating through the entire content. This dynamic summarization improves efficiency by reducing the time and effort required to locate specific information within large or complex content. The invention is particularly useful in devices such as smartphones, tablets, and smart displays, where screen space is limited and user interaction is often time-sensitive.
19. A non-transitory computer readable medium storing a program for executing a method for summarizing content which, when executed by a processor of an electronic apparatus, causes the electronic apparatus to execute operations comprising: displaying a first portion of content on a display; receiving a user input on the display while the first portion of the content is being displayed; determining an area of the display corresponding to a position where the user input is received on the display; identifying, from among a plurality of different non-displayed portions of the content, a first non-displayed portion of the content corresponding to the determined area; summarizing the first non-displayed portion of the content based on a type of the content; and displaying the summarized first non-displayed portion of the content along with at least a portion of the first portion of the content.
This invention relates to content summarization in electronic devices, specifically addressing the challenge of efficiently accessing and summarizing non-displayed portions of content based on user interaction. The method involves displaying a first portion of content on a display of an electronic apparatus. While this portion is displayed, the system receives a user input on the display, such as a tap or gesture, and determines the specific area of the display where the input was received. Based on this position, the system identifies a corresponding non-displayed portion of the content from multiple available non-displayed sections. The identified portion is then summarized according to the content type, such as text, images, or multimedia, and the summary is displayed alongside at least part of the initially shown content. This allows users to quickly access and review relevant non-displayed content without navigating away from the current view, enhancing usability and efficiency in content exploration. The summarization process adapts to the content type to ensure the summary is relevant and concise. The invention is implemented via a program stored on a non-transitory computer-readable medium and executed by a processor in the electronic apparatus.
20. An electronic apparatus comprising: a display; a memory; and a processor, wherein the processor is configured to: control the display to display a first portion of content; control to receive a user input on the display while the first portion of the content is being displayed; determine an area of the display corresponding to a position where the user input is received on the display; identify, from among a plurality of different non-displayed portions of the content, a first non-displayed portion of the content corresponding to the determined area; summarize the first non-displayed portion of the content based on a type of the content by applying a data summarization model configured to summarize the first non-displayed portion of the content, the data summarization model comprising a model learned by using content and summarized content as learning data; control the display to display the summarized first non-displayed portion of the content along with at least a portion of the first portion of the content.
This invention relates to electronic devices with displays that enhance content navigation by dynamically summarizing non-displayed portions of content based on user interaction. The problem addressed is the difficulty of efficiently accessing relevant information in large or complex content without scrolling or navigating away from the current view. The apparatus includes a display, memory, and processor. The processor displays a portion of content and detects user input on the display. It determines the input's position on the screen and identifies a non-displayed portion of the content associated with that area. A data summarization model, trained on content and its summaries, generates a condensed version of the identified non-displayed portion. The summary is displayed alongside the original content, allowing users to preview hidden information without disrupting their current view. The summarization model adapts to the content type, ensuring relevant and context-aware summaries. This approach improves content accessibility and navigation efficiency in electronic devices.
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December 29, 2020
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